Characterization of a Biosensor Based on Graphene Field Effect Transistors for Body Fluid Analytes: Channel Resistance

Ricardo Bravo, Ricardo Silva, Eric Barret, John Brunnings, Adianette Segarra
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Abstract

Field-Effect Transistors with graphene channels or GFETs are an interesting alternative for the detection of analytes in biological fluids since the electrical behavior of the channel changes when exposed to a sample (among other detection strategies). In this work a preliminary characterization is made in terms of the resistance of the channel for a commercial device that has GFETs of 1 and 3 channels for cases of dry and wet gate at atmospheric pressure. The channel resistance was obtained by sweeping the drain-source voltage from -1 to +1V and measuring the drain current in a test station developed for this purpose, for gate cases with and without a PBS 0.001X reference solution. The ohmic response of the channel is linear current with respect to voltage, being greater resistance in the case of wet gate. An increase in resistance with respect to voltage was observed that it is important to review. It was possible to make the ohmic characterization of the channel and a series of recommendations are suggested to continue this research.
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基于石墨烯场效应晶体管的体液分析生物传感器的特性:通道电阻
具有石墨烯通道或 GFET 的场效应晶体管是检测生物液体中分析物的一种有趣的替代方法,因为当通道暴露在样品中时,其电气行为会发生变化(包括其他检测策略)。在这项工作中,我们对一种商用器件的沟道电阻进行了初步鉴定,这种器件具有 1 个和 3 个沟道的 GFET,在大气压力下可分为干栅和湿栅两种情况。沟道电阻是通过将漏极-源极电压从 -1V 扫至 +1V 并在为此目的开发的测试站中测量漏极电流而获得的,适用于有 PBS 0.001X 参考溶液和无 PBS 0.001X 参考溶液的栅极情况。沟道的欧姆响应是电流与电压的线性关系,湿栅的电阻更大。观察到电阻随电压而增加,这一点值得注意。我们有可能对沟道进行欧姆特性分析,并提出了一系列建议以继续这项研究。
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